gecko-dev/dom/media/fake-cdm/cdm-test-decryptor.cpp

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#include "cdm-test-decryptor.h"
#include "cdm-test-storage.h"
#include "cdm-test-output-protection.h"

#include <mutex>
#include <string>
#include <vector>
#include <iostream>
#include <istream>
#include <iterator>
#include <sstream>
#include <set>
#include <thread>

#include "mozilla/Assertions.h"
#include "mozilla/Attributes.h"

using namespace std;

FakeDecryptor* FakeDecryptor::sInstance = nullptr;

class TestManager {
public:
  TestManager() = default;

  // Register a test with the test manager.
  void BeginTest(const string& aTestID) {
    std::lock_guard<std::mutex> lock(mMutex);
    auto found = mTestIDs.find(aTestID);
    if (found == mTestIDs.end()) {
      mTestIDs.insert(aTestID);
    } else {
      Error("FAIL BeginTest test already existed: " + aTestID);
    }
  }

  // Notify the test manager that the test is finished. If all tests are done,
  // test manager will send "test-storage complete" to notify the parent that
  // all tests are finished and also delete itself.
  void EndTest(const string& aTestID) {
    bool isEmpty = false;
    {
      std::lock_guard<std::mutex> lock(mMutex);
      auto found = mTestIDs.find(aTestID);
      if (found != mTestIDs.end()) {
        mTestIDs.erase(aTestID);
        isEmpty = mTestIDs.empty();
      } else {
        Error("FAIL EndTest test not existed: " + aTestID);
        return;
      }
    }
    if (isEmpty) {
      Finish();
      delete this;
    }
  }

private:
  ~TestManager() = default;

  static void Error(const string& msg) {
    FakeDecryptor::Message(msg);
  }

  static void Finish() {
    FakeDecryptor::Message("test-storage complete");
  }

  std::mutex mMutex;
  set<string> mTestIDs;
};

FakeDecryptor::FakeDecryptor(cdm::Host_9* aHost)
  : mHost(aHost)
{
  MOZ_ASSERT(!sInstance);
  sInstance = this;
}

void
FakeDecryptor::Message(const std::string& aMessage)
{
  MOZ_ASSERT(sInstance);
  const static std::string sid("fake-session-id");
  sInstance->mHost->OnSessionMessage(sid.c_str(),
                                     sid.size(),
                                     cdm::MessageType::kLicenseRequest,
                                     aMessage.c_str(),
                                     aMessage.size());
}

std::vector<std::string>
Tokenize(const std::string& aString)
{
  std::stringstream strstr(aString);
  std::istream_iterator<std::string> it(strstr), end;
  return std::vector<std::string>(it, end);
}

static const string TruncateRecordId = "truncate-record-id";
static const string TruncateRecordData = "I will soon be truncated";

template<class Continuation>
class WriteRecordSuccessTask {
public:
  WriteRecordSuccessTask(string aId, Continuation aThen)
    : mId(aId)
    , mThen(move(aThen))
  {}

  void operator()()
  {
    ReadRecord(FakeDecryptor::sInstance->mHost, mId, mThen);
  }

  string mId;
  Continuation mThen;
};

class WriteRecordFailureTask {
public:
  explicit WriteRecordFailureTask(const string& aMessage,
                                  TestManager* aTestManager = nullptr,
                                  const string& aTestID = "")
    : mMessage(aMessage), mTestmanager(aTestManager), mTestID(aTestID) {}

  void operator()()
  {
    FakeDecryptor::Message(mMessage);
    if (mTestmanager) {
      mTestmanager->EndTest(mTestID);
    }
  }

private:
  string mMessage;
  TestManager* const mTestmanager;
  const string mTestID;
};

class TestEmptyContinuation : public ReadContinuation {
public:
  TestEmptyContinuation(TestManager* aTestManager, const string& aTestID)
    : mTestmanager(aTestManager), mTestID(aTestID) {}

  virtual void operator()(bool aSuccess,
                          const uint8_t* aData,
                          uint32_t aDataSize) override
  {
    if (aDataSize) {
      FakeDecryptor::Message("FAIL TestEmptyContinuation record was not truncated");
    }
    mTestmanager->EndTest(mTestID);
  }

private:
  TestManager* const mTestmanager;
  const string mTestID;
};

class TruncateContinuation : public ReadContinuation {
public:
  TruncateContinuation(const string& aID,
                       TestManager* aTestManager,
                       const string& aTestID)
    : mID(aID), mTestmanager(aTestManager), mTestID(aTestID) {}

  virtual void operator()(bool aSuccess,
                          const uint8_t* aData,
                          uint32_t aDataSize) override
  {
    if (string(reinterpret_cast<const char*>(aData), aDataSize) != TruncateRecordData) {
      FakeDecryptor::Message("FAIL TruncateContinuation read data doesn't match written data");
    }
    auto cont = TestEmptyContinuation(mTestmanager, mTestID);
    auto msg = "FAIL in TruncateContinuation write.";
    WriteRecord(FakeDecryptor::sInstance->mHost, mID, nullptr, 0,
                WriteRecordSuccessTask<TestEmptyContinuation>(mID, cont),
                WriteRecordFailureTask(msg, mTestmanager, mTestID));
  }

private:
  const string mID;
  TestManager* const mTestmanager;
  const string mTestID;
};

class VerifyAndFinishContinuation : public ReadContinuation {
public:
  explicit VerifyAndFinishContinuation(string aValue,
                                       TestManager* aTestManager,
                                       const string& aTestID)
  : mValue(aValue), mTestmanager(aTestManager), mTestID(aTestID) {}

  virtual void operator()(bool aSuccess,
                          const uint8_t* aData,
                          uint32_t aDataSize) override
  {
    if (string(reinterpret_cast<const char*>(aData), aDataSize) != mValue) {
      FakeDecryptor::Message("FAIL VerifyAndFinishContinuation read data doesn't match expected data");
    }
    mTestmanager->EndTest(mTestID);
  }

private:
  string mValue;
  TestManager* const mTestmanager;
  const string mTestID;
};

class VerifyAndOverwriteContinuation : public ReadContinuation {
public:
  VerifyAndOverwriteContinuation(string aId, string aValue, string aOverwrite,
                                 TestManager* aTestManager, const string& aTestID)
    : mId(aId)
    , mValue(aValue)
    , mOverwrite(aOverwrite)
    , mTestmanager(aTestManager)
    , mTestID(aTestID)
  {}

  virtual void operator()(bool aSuccess,
                          const uint8_t* aData,
                          uint32_t aDataSize) override
  {
    if (string(reinterpret_cast<const char*>(aData), aDataSize) != mValue) {
      FakeDecryptor::Message("FAIL VerifyAndOverwriteContinuation read data doesn't match expected data");
    }
    auto cont = VerifyAndFinishContinuation(mOverwrite, mTestmanager, mTestID);
    auto msg = "FAIL in VerifyAndOverwriteContinuation write.";
    WriteRecord(FakeDecryptor::sInstance->mHost, mId, mOverwrite,
                WriteRecordSuccessTask<VerifyAndFinishContinuation>(mId, cont),
                WriteRecordFailureTask(msg, mTestmanager, mTestID));
  }

private:
  string mId;
  string mValue;
  string mOverwrite;
  TestManager* const mTestmanager;
  const string mTestID;
};

static const string OpenAgainRecordId = "open-again-record-id";

class OpenedSecondTimeContinuation : public OpenContinuation {
public:
  explicit OpenedSecondTimeContinuation(TestManager* aTestManager,
                                        const string& aTestID)
    : mTestmanager(aTestManager), mTestID(aTestID)
  {
  }

  void operator()(bool aSuccess) override {
    if (!aSuccess) {
      FakeDecryptor::Message("FAIL OpenSecondTimeContinuation should not be able to re-open record.");
    }
    // Succeeded, open should have failed.
    mTestmanager->EndTest(mTestID);
  }

private:
  TestManager* const mTestmanager;
  const string mTestID;
};

class OpenedFirstTimeContinuation : public OpenContinuation {
public:
  OpenedFirstTimeContinuation(const string& aID,
                              TestManager* aTestManager,
                              const string& aTestID)
    : mID(aID), mTestmanager(aTestManager), mTestID(aTestID) {}

  void operator()(bool aSuccess) override {
    if (!aSuccess) {
      FakeDecryptor::Message("FAIL OpenAgainContinuation to open record initially.");
      mTestmanager->EndTest(mTestID);
      return;
    }

    auto cont = OpenedSecondTimeContinuation(mTestmanager, mTestID);
    OpenRecord(FakeDecryptor::sInstance->mHost, mID, cont);
  }

private:
  const string mID;
  TestManager* const mTestmanager;
  const string mTestID;
};

static void
DoTestStorage(const string& aPrefix, TestManager* aTestManager)
{
  MOZ_ASSERT(FakeDecryptor::sInstance->mHost, "FakeDecryptor::sInstance->mHost should not be null");
  // Basic I/O tests. We run three cases concurrently. The tests, like
  // CDMStorage run asynchronously. When they've all passed, we send
  // a message back to the parent process, or a failure message if not.

  // Test 1: Basic I/O test, and test that writing 0 bytes in a record
  // deletes record.
  //
  // Write data to truncate record, then
  // read data, verify that we read what we wrote, then
  // write 0 bytes to truncate record, then
  // read data, verify that 0 bytes was read
  const string id1 = aPrefix + TruncateRecordId;
  const string testID1 = aPrefix + "write-test-1";
  aTestManager->BeginTest(testID1);
  auto cont1 = TruncateContinuation(id1, aTestManager, testID1);
  auto msg1 = "FAIL in TestStorage writing TruncateRecord.";
  WriteRecord(FakeDecryptor::sInstance->mHost, id1, TruncateRecordData,
              WriteRecordSuccessTask<TruncateContinuation>(id1, cont1),
              WriteRecordFailureTask(msg1, aTestManager, testID1));

  // Test 2: Test that overwriting a record with a shorter record truncates
  // the record to the shorter record.
  //
  // Write record, then
  // read and verify record, then
  // write a shorter record to same record.
  // read and verify
  string id2 = aPrefix + "record1";
  string record1 = "This is the first write to a record.";
  string overwrite = "A shorter record";
  const string testID2 = aPrefix + "write-test-2";
  aTestManager->BeginTest(testID2);
  auto task2 = VerifyAndOverwriteContinuation(id2, record1, overwrite,
                                              aTestManager, testID2);
  auto msg2 = "FAIL in TestStorage writing record1.";
  WriteRecord(FakeDecryptor::sInstance->mHost, id2, record1,
              WriteRecordSuccessTask<VerifyAndOverwriteContinuation>(id2, task2),
              WriteRecordFailureTask(msg2, aTestManager, testID2));

  // Test 3: Test that opening a record while it's already open fails.
  //
  // Open record1, then
  // open record1, should fail.
  // close record1
  const string id3 = aPrefix + OpenAgainRecordId;
  const string testID3 = aPrefix + "open-test-1";
  aTestManager->BeginTest(testID3);
  auto task3 = OpenedFirstTimeContinuation(id3, aTestManager, testID3);
  OpenRecord(FakeDecryptor::sInstance->mHost, id3, task3);
}

void
FakeDecryptor::TestStorage()
{
  auto* testManager = new TestManager();
  // Main thread tests.
  DoTestStorage("mt1-", testManager);
  DoTestStorage("mt2-", testManager);

  // Note: Once all tests finish, TestManager will dispatch "test-pass" message,
  // which ends the test for the parent.
}

class ReportWritten
{
public:
  ReportWritten(const string& aRecordId, const string& aValue)
    : mRecordId(aRecordId)
    , mValue(aValue)
  {}
  void operator()() {
    FakeDecryptor::Message("stored " + mRecordId + " " + mValue);
  }

  const string mRecordId;
  const string mValue;
};

class ReportReadStatusContinuation : public ReadContinuation {
public:
  explicit ReportReadStatusContinuation(const string& aRecordId)
    : mRecordId(aRecordId)
  {}
  void operator()(bool aSuccess,
                  const uint8_t* aData,
                  uint32_t aDataSize) override
  {
    if (!aSuccess) {
      FakeDecryptor::Message("retrieve " + mRecordId + " failed");
    } else {
      stringstream ss;
      ss << aDataSize;
      string len;
      ss >> len;
      FakeDecryptor::Message("retrieve " + mRecordId + " succeeded (length " +
                             len + " bytes)");
    }
  }
  string mRecordId;
};

class ReportReadRecordContinuation : public ReadContinuation {
public:
  explicit ReportReadRecordContinuation(const string& aRecordId)
    : mRecordId(aRecordId)
  {}
  void operator()(bool aSuccess,
                  const uint8_t* aData,
                  uint32_t aDataSize) override
  {
    if (!aSuccess) {
      FakeDecryptor::Message("retrieved " + mRecordId + " failed");
    } else {
      FakeDecryptor::Message("retrieved " + mRecordId + " " +
                             string(reinterpret_cast<const char*>(aData),
                                    aDataSize));
    }
  }
  string mRecordId;
};

enum ShutdownMode {
  ShutdownNormal,
  ShutdownTimeout,
  ShutdownStoreToken
};

static ShutdownMode sShutdownMode = ShutdownNormal;
static string sShutdownToken = "";

void
FakeDecryptor::UpdateSession(uint32_t aPromiseId,
                             const char* aSessionId,
                             uint32_t aSessionIdLength,
                             const uint8_t* aResponse,
                             uint32_t aResponseSize)
{
  MOZ_ASSERT(FakeDecryptor::sInstance->mHost, "FakeDecryptor::sInstance->mHost should not be null");
  std::string response((const char*)aResponse, (const char*)(aResponse)+aResponseSize);
  std::vector<std::string> tokens = Tokenize(response);
  const string& task = tokens[0];
  if (task == "test-storage") {
    TestStorage();
  } else if (task == "store") {
      // send "stored record" message on complete.
    const string& id = tokens[1];
    const string& value = tokens[2];
    WriteRecord(FakeDecryptor::sInstance->mHost,
                id,
                value,
                ReportWritten(id, value),
                WriteRecordFailureTask("FAIL in writing record."));
  } else if (task == "retrieve") {
    const string& id = tokens[1];
    ReadRecord(FakeDecryptor::sInstance->mHost, id, ReportReadStatusContinuation(id));
  } else if (task == "shutdown-mode") {
    const string& mode = tokens[1];
    if (mode == "timeout") {
      sShutdownMode = ShutdownTimeout;
    } else if (mode == "token") {
      sShutdownMode = ShutdownStoreToken;
      sShutdownToken = tokens[2];
      Message("shutdown-token received " + sShutdownToken);
    }
  } else if (task == "retrieve-shutdown-token") {
    ReadRecord(FakeDecryptor::sInstance->mHost,
               "shutdown-token",
               ReportReadRecordContinuation("shutdown-token"));
  } else if (task == "test-op-apis") {
    mozilla::cdmtest::TestOuputProtectionAPIs();
  }
}